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Partner: R. Hose

Conference papers
1.Postek E., Smallwood R., Hose R., Behaviour of Tensegrity Cells Assembly During Single Cell Growth, CMBE2009, 1st International Conference on Mathematical and Computational Biomedical Engineering, 2009-06-29/07-01, Swansea (GB), pp.415-418, 2009
Abstract:

The tensegrity structures form the cells of living organisms. We will deal with the cell monolayer. The
particular cell is an elementary icosahedron. We are interested in the influence of the cell growth on the
displacement and stress patterns in the cell matrix. The problem is geometrically nonlinear and visco
elastic.

Keywords:

Tensegrity, cell colonies, cell growth

Affiliations:
Postek E.-IPPT PAN
Smallwood R.-other affiliation
Hose R.-other affiliation
Conference abstracts
1.Postek E., Smallwood R., Hose R., Finite deformation based model of cytoskeleton, ICCB2009, IV International Congress on Computational Bioengineering including the first European Symposium on Biomedical Integrative Research, 2009-09-16/09-18, Bertinoro (IT), DOI: 10.6092/unibo/amsacta/2646, pp.53-53, 2009
Abstract:

The cytoskeleto is modelled as a tensegrity structure. It consists of tendons and struts [Stamenovic, 2005]. The basic tensegrity structures are developed from icosahedron.
The cells undergo finite deformations behaviour and their response to loading conditions is visco-elastic,
These types of structures are sensitive to initial prestressing what it intuitively natural since without the initial stress state they would not exist, The other factors affecting the mechanical behaviour of the cell are constitutive parameters and positions of the nodes, in fact, the shape of the cell.

Keywords:

cytoskeleton, visco-elasticity, finite strains, prestressing

Affiliations:
Postek E.-IPPT PAN
Smallwood R.-other affiliation
Hose R.-other affiliation
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